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New Scars Found on Moon, Hint at "Recent" Tectonic Activity

The largest of the newly found graben, in highlands on the moon's far side.

Image courtesy ASU/SI/NASA

Parts of the moon's surface have been stretched apart to form shallow, sunken valleys, according to a new study based on NASA images.

The presence of the long, thin valleys—known as graben—suggests that the moon has undergone relatively recent tectonic activity, within the past 50 million years or so.

That activity in turn hints that the moon may not have been entirely melted when it first formed roughly 4.6 billion years ago. Instead the early moon likely had a solid core covered by a global ocean of molten rock.

"They couldn't do this [type of study] until they had the awesome resolution from the LROC cameras on board the Lunar Reconnaissance Orbiter [and] the spectacular resolution where they can see these things up close," said Patrick McGovern, a staff scientist at the Lunar and Planetary Institute in Houston, Texas, who wasn't involved in the study.

That finding was based on LRO images of lobate scarps, cliff-like features thought to have formed as the moon cooled and its crust contracted.

In the new paper, Watters and colleagues describe the previously unseen graben—long, trough-like features that form when the moon's crust stretches, breaks, and drops drown between two parallel fault lines.

These traits indicate that the graben are young, geologically speaking.

"Not only are they no older than 50 million years, they could be very young—young enough to be related to moonquakes recorded by the Apollo seismic network," which operated on the moon between 1969 and 1977, Watters said in an email to National Geographic News.

Putting Limits on Lunar Shrinkage

The graben are not as widespread across the moon as the lobate scarps, suggesting that just a few local areas have been forced to expand.

This complements Watters's previous study on the moon's shrinkage, which said that the moon was experiencing only low-level compression.

The graben "aren't telling us it's not compression, but it is providing a limit" on the amount of compressional forces, the Lunar and Planetary Institute's McGovern said.

The new study suggests that the moon couldn't have been totally molten when it first formed, because a fully melted moon would have been subjected to higher levels of compression as it cooled, which would have overridden any localized stretching that formed the graben we see today.

The new study on the moon's tectonic activity was published Sunday in the journalNature Geoscience.